The present invention relates to an adhesive cylinder/tube insect trap designed to address the challenges of traditional pest control methods. This innovative trap features a substantially cylindrical form with enclosed ends, fully enveloped in a sticky adhesive substance, capable of ensnaring various types of insects upon contact. A key aspect of the invention is the inclusion of a removable plastic cover that safeguards the adhesive layer, ensuring its potency and stickiness are preserved until the moment of use. The cylindrical design offers versatility in placement, allowing the trap to be positioned in strategic locations, including corners, cabinet interiors, beneath appliances, or adhered to vertical surfaces. The discreet form factor allows the trap to blend seamlessly into its surroundings or remain hidden from view, making it an unobtrusive presence in both residential and commercial spaces. The invention provides an effective, environmentally safe, and user-friendly solution for insect and pest entrapment, emphasizing ease of use, aesthetic discretion, and environmental safety.

The present invention relates to an adhesive cylinder/tube insect trap designed to address the challenges of traditional pest control methods. This innovative trap features a substantially cylindrical form with enclosed ends, fully enveloped in a sticky adhesive substance, capable of ensnaring various types of insects upon contact. A key aspect of the invention is the inclusion of a removable plastic cover that safeguards the adhesive layer, ensuring its potency and stickiness are preserved until the moment of use. The cylindrical design offers versatility in placement, allowing the trap to be positioned in strategic locations, including corners, cabinet interiors, beneath appliances, or adhered to vertical surfaces. The discreet form factor allows the trap to blend seamlessly into its surroundings or remain hidden from view, making it an unobtrusive presence in both residential and commercial spaces. The invention provides an effective, environmentally safe, and user-friendly solution for insect and pest entrapment, emphasizing ease of use, aesthetic discretion, and environmental safety.

Systems, devices, and methods for providing a calendar configuration for a multi-sheet fly trap, with each sheet having a sticky exposed surface of a plastic or paper sheet, which is exposed when the covering sheet is removed, each sheet includes patterns of spaced apart black lines over a blue colored surface. The black lines sized to emulate cracks or surface edges to attract the flies thereon. And the sticky sheets can be left up for a period of time from a day to a month, and then be ripped off and discarded. Black line patterns can include different black feather patterns, such as different size rectangle crack shapes, parallelogram crack shapes, curve/crescent crack shapes, and other geometrical crack shapes. The blue colored surface can be an existing blue colored base layer. Additionally, the blue colored layer can be formed from a blue glue surface layer on a base. The black line crack patterns can exist on a base, and the blue glue surface can be applied over the black line crack patterns. The blue glue can be formed from liquid glue with dyes having a color of Pantone 115-5C blue color, where the blue glue remains in a sticky state after being applied. A peel and stick layer can be applied over the blue glue surface. An alternative version can include separately affixing black line crack patterns over a blue glue surface. And a peel and stick layer added thereon.

Systems, devices, and methods for providing a calendar configuration for a multi-sheet fly trap, with each sheet having a sticky exposed surface of a plastic or paper sheet, which is exposed when the covering sheet is removed, each sheet includes patterns of spaced apart black lines over a blue colored surface. The black lines sized to emulate cracks or surface edges to attract the flies thereon. And the sticky sheets can be left up for a period of time from a day to a month, and then be ripped off and discarded. Black line patterns can include different black feather patterns, such as different size rectangle crack shapes, parallelogram crack shapes, curve/crescent crack shapes, and other geometrical crack shapes. The blue colored surface can be an existing blue colored base layer. Additionally, the blue colored layer can be formed from a blue glue surface layer on a base. The black line crack patterns can exist on a base, and the blue glue surface can be applied over the black line crack patterns. The blue glue can be formed from liquid glue with dyes having a color of Pantone 115-5C blue color, where the blue glue remains in a sticky state after being applied. A peel and stick layer can be applied over the blue glue surface. An alternative version can include separately affixing black line crack patterns over a blue glue surface. And a peel and stick layer added thereon.

An insect trapping device, which includes an insect trapping lamp and a killing structure. The insect trapping lamp includes a lamp body, a control switch, and at least two light sources. The control switch and the light sources are provided at the lamp body. The at least two light sources includes a first light source and a second light source. The first light source and the second light source emit light of different colors, and the control switch controls the first light source and the second light source to be turned on. The killing structure is detachably connected to the lamp body and is at least partially provided at an illumination area of the insect trapping lamp. A color of the killing structure corresponds to a color of light emitted by the first light source or the second light source.

A photoluminescent glue board for attracting and trapping flying insects. The photoluminescent glue board includes an adhesive layer and photoluminescent pigment incorporated therein or applied thereto. When activated by a light source, the photoluminescent pigment causes the glue board to emit visible light, creating a dual-function element that serves as both attractant and trap. A light trap unit is also provided with inward facing light to illuminate and activate the photoluminescent pigment.

A field analysis system includes a plurality of sensor stations, a field data processor, a gateway server, and an access device. Each sensor station includes an imaging device, at least one agricultural sensor, and a sticky trap. The field data processor includes a field data processor configured to receive data collected by the plurality of sensor stations. Each of the sensor stations intermittently collects data in the form of image data comprising images taken of the sticky trap using the imaging device, and sensor data taken from the at least one agricultural sensor. A sensor station processor is configured to extract insect population data from the image data. The insect population data and sensor data are transmitted to the field data processor where it is processed to generate a prescribed field action. This is transmitted to a cloud server via the gateway server. The cloud server is accessible by the access device.

A field analysis system includes a plurality of sensor stations, a field data processor, a gateway server, and an access device. Each sensor station includes an imaging device, at least one agricultural sensor, and a sticky trap. The field data processor includes a field data processor configured to receive data collected by the plurality of sensor stations. Each of the sensor stations intermittently collects data in the form of image data comprising images taken of the sticky trap using the imaging device, and sensor data taken from the at least one agricultural sensor. A sensor station processor is configured to extract insect population data from the image data. The insect population data and sensor data are transmitted to the field data processor where it is processed to generate a prescribed field action. This is transmitted to a cloud server via the gateway server. The cloud server is accessible by the access device.

An insect trap with a trap portion having a substantially planar surface and an adhesive disposed on the substantially planar surface. A base portion having a rear surface with a pair of electrically conductive prongs. The base portion includes a circuit board configured to receive power from the electronically conductive prongs, at least one LED light electrically connected to the circuit board, and at least one slot extending from a top surface of the base portion towards a bottom surface of the base portion. The slot is configured to removably engage the trap portion and secure the trap portion in place during use. The at least one LED light is disposed between the at least one slot and the electrically conductive prongs. The trap portion removably engages the base portion and is mounted vertically on the base portion in front of the at least one LED light.

A pest monitoring device is disclosed. The pest monitoring device includes a housing; an optical sensor configured to generate optical data related to an interior surface within the housing; and a processor in communication with the optical sensor. The processor is configured to receive optical data from the optical sensor; select optical data relating to at least one segment of the interior surface, the optical data relating to the at least one segment being arranged as a plurality of pixels. The processor is further configured to evaluate if the optical data corresponding to the least one segment meets a pre-determined condition associated with the interior surface by: counting the number of pixels of the plurality of pixels which indicate a light intensity below a pre-determined intensity value; and determining if the number of pixels having a light intensity below the pre-determined intensity limit is greater than or equal to a pre-determined pixel threshold value. The processor is further configured to determine, based on whether the optical data corresponding to the at least one segment meets the pre-determined condition associated with the interior surface, if there is an indication of a pest on the interior surface. A method of monitoring a pest trap is also disclosed.